Add to ORKGSpecial computational techniques are required to compute absolute crystal nucleation rates of colloidal suspensions. Using crystal nucleation of hard-sphere colloids as an example, we describe in some detail the novel computational tools that are needed to perform such calculations. In particular, we focus on the definition of appropriate order parameters that distinguish liquid from crystal, and on techniques to compute the kinetic prefactor that enters in the expression for the nucleation rate. In addition, we discuss the relation between simulation results and theoretical predictions based on classical nucleation theory
Abstract — The creation of three-dimensional ordered colloidal crystals, for application in a range ...
We report on a large scale computer simulation study of crystal nucleation in hard spheres. Through ...
peer reviewedWe report Monte Carlo studies of liquid crystal nucleation in two types of anisotropic ...
This review discusses the recent progress that has been made in the application of computer simulati...
The crystallization of a metastable melt is one of the most important non-equilibrium phenomena in c...
Over the last number of years several simulation methods have been introduced to study rare events s...
Over the last number of years several simulation methods have been introduced to study rare events s...
Using computer simulations, we investigate the homogeneous crystal nucleation in suspensions of coll...
Using computer simulations, we investigate the homogeneous crystal nucleation in suspensions of coll...
In this thesis, we examine the phase behaviour and nucleation in a variety of hard-sphere systems. I...
We present a computer simulation study on the crystal nucleation process in suspensions of hard sphe...
We report Monte Carlo studies of liquid crystal nucleation in two types of anisotropic colloidal sys...
In this thesis, we examine the phase behaviour and nucleation in a variety of hard-sphere systems. I...
We report Monte Carlo studies of liquid crystal nucleation in two types of anisotropic colloidal sys...
We report on a large scale computer simulation study of crystal nucleation in hard spheres. Through ...
Abstract — The creation of three-dimensional ordered colloidal crystals, for application in a range ...
We report on a large scale computer simulation study of crystal nucleation in hard spheres. Through ...
peer reviewedWe report Monte Carlo studies of liquid crystal nucleation in two types of anisotropic ...
This review discusses the recent progress that has been made in the application of computer simulati...
The crystallization of a metastable melt is one of the most important non-equilibrium phenomena in c...
Over the last number of years several simulation methods have been introduced to study rare events s...
Over the last number of years several simulation methods have been introduced to study rare events s...
Using computer simulations, we investigate the homogeneous crystal nucleation in suspensions of coll...
Using computer simulations, we investigate the homogeneous crystal nucleation in suspensions of coll...
In this thesis, we examine the phase behaviour and nucleation in a variety of hard-sphere systems. I...
We present a computer simulation study on the crystal nucleation process in suspensions of hard sphe...
We report Monte Carlo studies of liquid crystal nucleation in two types of anisotropic colloidal sys...
In this thesis, we examine the phase behaviour and nucleation in a variety of hard-sphere systems. I...
We report Monte Carlo studies of liquid crystal nucleation in two types of anisotropic colloidal sys...
We report on a large scale computer simulation study of crystal nucleation in hard spheres. Through ...
Abstract — The creation of three-dimensional ordered colloidal crystals, for application in a range ...
We report on a large scale computer simulation study of crystal nucleation in hard spheres. Through ...
peer reviewedWe report Monte Carlo studies of liquid crystal nucleation in two types of anisotropic ...